Rapid event-related, BOLD fMRI, non-human primates (NHP): choose two out of three.
Pelekanos V. et al, (2020), Sci Rep, 10
Behavioral flexibility is associated with changes in structure and function distributed across a frontal cortical network in macaques.
Sallet J. et al, (2020), PLoS Biol, 18
Preserved extrastriate visual network in a monkey with substantial, naturally occurring damage to primary visual cortex.
Bridge H. et al, (2019), Elife, 8
Functional reorganisation and recovery following cortical lesions: A preliminary study in macaque monkeys.
Ainsworth M. et al, (2018), Neuropsychologia, 119, 382 - 391
Methods matter: A primer on permanent and reversible interference techniques in animals for investigators of human neuropsychology.
Bell AH. and Bultitude JH., (2018), Neuropsychologia, 115, 211 - 219
Individual Differences in the Alignment of Structural and Functional Markers of the V5/MT Complex in Primates.
Large I. et al, (2016), Cereb Cortex, 26, 3928 - 3944
Encoding of Stimulus Probability in Macaque Inferior Temporal Cortex.
Bell AH. et al, (2016), Curr Biol, 26, 2280 - 2290
A Putative Multiple-Demand System in the Macaque Brain.
Mitchell DJ. et al, (2016), J Neurosci, 36, 8574 - 8585
Contrasting Roles for Orbitofrontal Cortex and Amygdala in Credit Assignment and Learning in Macaques.
Chau BKH. et al, (2015), Neuron, 87, 1106 - 1118
Connectivity between the superior colliculus and the amygdala in humans and macaque monkeys: virtual dissection with probabilistic DTI tractography.
Rafal RD. et al, (2015), J Neurophysiol, 114, 1947 - 1962
Hierarchical Encoding of Social Cues in Primate Inferior Temporal Cortex.
Morin EL. et al, (2015), Cereb Cortex, 25, 3036 - 3045
A neural circuit covarying with social hierarchy in macaques.
Noonan MP. et al, (2014), PLoS Biol, 12
Amygdala lesions disrupt modulation of functional MRI activity evoked by facial expression in the monkey inferior temporal cortex.
Hadj-Bouziane F. et al, (2012), Proceedings of the National Academy of Sciences of USA, 109, 3640 - 3648
Relationship between functional magnetic resonance imaging-identified regions and neuronal category selectivity.
Bell AH. et al, (2011), J Neurosci, 31, 12229 - 12240
Uncovering the visual "alphabet": advances in our understanding of object perception.
Ungerleider LG. and Bell AH., (2011), Vision Res, 51, 782 - 799
The effect of spatial-temporal audiovisual disparities on saccades in a complex scene.
Van Wanrooij MM. et al, (2009), Exp Brain Res, 198, 425 - 437
Object representations in the temporal cortex of monkeys and humans as revealed by functional magnetic resonance imaging.
Bell AH. et al, (2009), J Neurophysiol, 101, 688 - 700